minio/cmd/erasure-server-pool-rebalance.go

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// Copyright (c) 2015-2022 MinIO, Inc.
//
// This file is part of MinIO Object Storage stack
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package cmd
import (
"context"
"encoding/binary"
"errors"
"fmt"
"io"
"math"
"math/rand"
"net/http"
"strconv"
"strings"
"sync"
"time"
"github.com/lithammer/shortuuid/v4"
2022-12-06 16:46:50 -05:00
"github.com/minio/madmin-go/v2"
"github.com/minio/minio/internal/hash"
"github.com/minio/minio/internal/logger"
"github.com/minio/pkg/env"
)
//go:generate msgp -file $GOFILE -unexported
// rebalanceStats contains per-pool rebalance statistics like number of objects,
// versions and bytes rebalanced out of a pool
type rebalanceStats struct {
InitFreeSpace uint64 `json:"initFreeSpace" msg:"ifs"` // Pool free space at the start of rebalance
InitCapacity uint64 `json:"initCapacity" msg:"ic"` // Pool capacity at the start of rebalance
Buckets []string `json:"buckets" msg:"bus"` // buckets being rebalanced or to be rebalanced
RebalancedBuckets []string `json:"rebalancedBuckets" msg:"rbs"` // buckets rebalanced
Bucket string `json:"bucket" msg:"bu"` // Last rebalanced bucket
Object string `json:"object" msg:"ob"` // Last rebalanced object
NumObjects uint64 `json:"numObjects" msg:"no"` // Number of objects rebalanced
NumVersions uint64 `json:"numVersions" msg:"nv"` // Number of versions rebalanced
Bytes uint64 `json:"bytes" msg:"bs"` // Number of bytes rebalanced
Participating bool `json:"participating" msg:"par"`
Info rebalanceInfo `json:"info" msg:"inf"`
}
func (rs *rebalanceStats) update(bucket string, fi FileInfo) {
if fi.IsLatest {
rs.NumObjects++
}
rs.NumVersions++
onDiskSz := fi.Size * int64(fi.Erasure.DataBlocks+fi.Erasure.ParityBlocks) / int64(fi.Erasure.DataBlocks)
rs.Bytes += uint64(onDiskSz)
rs.Bucket = bucket
rs.Object = fi.Name
}
type rstats []*rebalanceStats
//go:generate stringer -type=rebalStatus -trimprefix=rebal $GOFILE
type rebalStatus uint8
const (
rebalNone rebalStatus = iota
rebalStarted
rebalCompleted
rebalStopped
rebalFailed
)
type rebalanceInfo struct {
StartTime time.Time `msg:"startTs"` // Time at which rebalance-start was issued
EndTime time.Time `msg:"stopTs"` // Time at which rebalance operation completed or rebalance-stop was called
Status rebalStatus `msg:"status"` // Current state of rebalance operation. One of Started|Stopped|Completed|Failed.
}
// rebalanceMeta contains information pertaining to an ongoing rebalance operation.
type rebalanceMeta struct {
cancel context.CancelFunc `msg:"-"` // to be invoked on rebalance-stop
lastRefreshedAt time.Time `msg:"-"`
StoppedAt time.Time `msg:"stopTs"` // Time when rebalance-stop was issued.
ID string `msg:"id"` // ID of the ongoing rebalance operation
PercentFreeGoal float64 `msg:"pf"` // Computed from total free space and capacity at the start of rebalance
PoolStats []*rebalanceStats `msg:"rss"` // Per-pool rebalance stats keyed by pool index
}
var errRebalanceNotStarted = errors.New("rebalance not started")
func (z *erasureServerPools) loadRebalanceMeta(ctx context.Context) error {
r := &rebalanceMeta{}
err := r.load(ctx, z.serverPools[0])
if err != nil {
if errors.Is(err, errConfigNotFound) {
return nil
}
return err
}
z.rebalMu.Lock()
z.rebalMeta = r
z.rebalMu.Unlock()
return nil
}
// initRebalanceMeta initializes rebalance metadata for a new rebalance
// operation and saves it in the object store.
func (z *erasureServerPools) initRebalanceMeta(ctx context.Context, buckets []string) (arn string, err error) {
r := &rebalanceMeta{
ID: shortuuid.New(),
PoolStats: make([]*rebalanceStats, len(z.serverPools)),
}
// Fetch disk capacity and available space.
si := z.StorageInfo(ctx)
diskStats := make([]struct {
AvailableSpace uint64
TotalSpace uint64
}, len(z.serverPools))
var totalCap, totalFree uint64
for _, disk := range si.Disks {
// Ignore invalid.
if disk.PoolIndex < 0 || len(diskStats) <= disk.PoolIndex {
// https://github.com/minio/minio/issues/16500
continue
}
totalCap += disk.TotalSpace
totalFree += disk.AvailableSpace
diskStats[disk.PoolIndex].AvailableSpace += disk.AvailableSpace
diskStats[disk.PoolIndex].TotalSpace += disk.TotalSpace
}
r.PercentFreeGoal = float64(totalFree) / float64(totalCap)
now := time.Now()
for idx := range z.serverPools {
r.PoolStats[idx] = &rebalanceStats{
Buckets: make([]string, len(buckets)),
RebalancedBuckets: make([]string, 0, len(buckets)),
InitFreeSpace: diskStats[idx].AvailableSpace,
InitCapacity: diskStats[idx].TotalSpace,
}
copy(r.PoolStats[idx].Buckets, buckets)
if pfi := float64(diskStats[idx].AvailableSpace) / float64(diskStats[idx].TotalSpace); pfi < r.PercentFreeGoal {
r.PoolStats[idx].Participating = true
r.PoolStats[idx].Info = rebalanceInfo{
StartTime: now,
Status: rebalStarted,
}
}
}
err = r.save(ctx, z.serverPools[0])
if err != nil {
return arn, err
}
z.rebalMeta = r
return r.ID, nil
}
func (z *erasureServerPools) updatePoolStats(poolIdx int, bucket string, fi FileInfo) {
z.rebalMu.Lock()
defer z.rebalMu.Unlock()
r := z.rebalMeta
if r == nil {
return
}
r.PoolStats[poolIdx].update(bucket, fi)
}
const (
rebalMetaName = "rebalance.bin"
rebalMetaFmt = 1
rebalMetaVer = 1
)
func (z *erasureServerPools) nextRebalBucket(poolIdx int) (string, bool) {
z.rebalMu.RLock()
defer z.rebalMu.RUnlock()
r := z.rebalMeta
if r == nil {
return "", false
}
ps := r.PoolStats[poolIdx]
if ps == nil {
return "", false
}
if ps.Info.Status == rebalCompleted || !ps.Participating {
return "", false
}
if len(ps.Buckets) == 0 {
return "", false
}
return ps.Buckets[0], true
}
func (z *erasureServerPools) bucketRebalanceDone(bucket string, poolIdx int) {
z.rebalMu.Lock()
defer z.rebalMu.Unlock()
ps := z.rebalMeta.PoolStats[poolIdx]
if ps == nil {
return
}
for i, b := range ps.Buckets {
if b == bucket {
ps.Buckets = append(ps.Buckets[:i], ps.Buckets[i+1:]...)
ps.RebalancedBuckets = append(ps.RebalancedBuckets, bucket)
break
}
}
}
func (r *rebalanceMeta) load(ctx context.Context, store objectIO) error {
return r.loadWithOpts(ctx, store, ObjectOptions{})
}
func (r *rebalanceMeta) loadWithOpts(ctx context.Context, store objectIO, opts ObjectOptions) error {
data, _, err := readConfigWithMetadata(ctx, store, rebalMetaName, opts)
if err != nil {
return err
}
if len(data) == 0 {
return nil
}
if len(data) <= 4 {
return fmt.Errorf("rebalanceMeta: no data")
}
// Read header
switch binary.LittleEndian.Uint16(data[0:2]) {
case rebalMetaFmt:
default:
return fmt.Errorf("rebalanceMeta: unknown format: %d", binary.LittleEndian.Uint16(data[0:2]))
}
switch binary.LittleEndian.Uint16(data[2:4]) {
case rebalMetaVer:
default:
return fmt.Errorf("rebalanceMeta: unknown version: %d", binary.LittleEndian.Uint16(data[2:4]))
}
// OK, parse data.
if _, err = r.UnmarshalMsg(data[4:]); err != nil {
return err
}
r.lastRefreshedAt = time.Now()
return nil
}
func (r *rebalanceMeta) saveWithOpts(ctx context.Context, store objectIO, opts ObjectOptions) error {
data := make([]byte, 4, r.Msgsize()+4)
// Initialize the header.
binary.LittleEndian.PutUint16(data[0:2], rebalMetaFmt)
binary.LittleEndian.PutUint16(data[2:4], rebalMetaVer)
buf, err := r.MarshalMsg(data)
if err != nil {
return err
}
return saveConfigWithOpts(ctx, store, rebalMetaName, buf, opts)
}
func (r *rebalanceMeta) save(ctx context.Context, store objectIO) error {
return r.saveWithOpts(ctx, store, ObjectOptions{})
}
func (z *erasureServerPools) IsRebalanceStarted() bool {
z.rebalMu.RLock()
defer z.rebalMu.RUnlock()
if r := z.rebalMeta; r != nil {
if r.StoppedAt.IsZero() {
return true
}
}
return false
}
func (z *erasureServerPools) IsPoolRebalancing(poolIndex int) bool {
z.rebalMu.RLock()
defer z.rebalMu.RUnlock()
if r := z.rebalMeta; r != nil {
if !r.StoppedAt.IsZero() {
return false
}
ps := z.rebalMeta.PoolStats[poolIndex]
return ps.Participating && ps.Info.Status == rebalStarted
}
return false
}
func (z *erasureServerPools) rebalanceBuckets(ctx context.Context, poolIdx int) (err error) {
doneCh := make(chan struct{})
defer close(doneCh)
// Save rebalance.bin periodically.
go func() {
// Update rebalance.bin periodically once every 5-10s, chosen randomly
// to avoid multiple pool leaders herding to update around the same
// time.
r := rand.New(rand.NewSource(time.Now().UnixNano()))
randSleepFor := func() time.Duration {
return 5*time.Second + time.Duration(float64(5*time.Second)*r.Float64())
}
timer := time.NewTimer(randSleepFor())
defer timer.Stop()
var rebalDone bool
var traceMsg string
for {
select {
case <-doneCh:
// rebalance completed for poolIdx
now := time.Now()
z.rebalMu.Lock()
z.rebalMeta.PoolStats[poolIdx].Info.Status = rebalCompleted
z.rebalMeta.PoolStats[poolIdx].Info.EndTime = now
z.rebalMu.Unlock()
rebalDone = true
traceMsg = fmt.Sprintf("completed at %s", now)
case <-ctx.Done():
// rebalance stopped for poolIdx
now := time.Now()
z.rebalMu.Lock()
z.rebalMeta.PoolStats[poolIdx].Info.Status = rebalStopped
z.rebalMeta.PoolStats[poolIdx].Info.EndTime = now
z.rebalMeta.cancel = nil // remove the already used context.CancelFunc
z.rebalMu.Unlock()
rebalDone = true
traceMsg = fmt.Sprintf("stopped at %s", now)
case <-timer.C:
traceMsg = fmt.Sprintf("saved at %s", time.Now())
}
stopFn := globalRebalanceMetrics.log(rebalanceMetricSaveMetadata, poolIdx, traceMsg)
err := z.saveRebalanceStats(ctx, poolIdx, rebalSaveStats)
stopFn(err)
logger.LogIf(ctx, err)
timer.Reset(randSleepFor())
if rebalDone {
return
}
}
}()
for {
select {
case <-ctx.Done():
return
default:
}
bucket, ok := z.nextRebalBucket(poolIdx)
if !ok {
// no more buckets to rebalance or target free_space/capacity reached
break
}
stopFn := globalRebalanceMetrics.log(rebalanceMetricRebalanceBucket, poolIdx, bucket)
err = z.rebalanceBucket(ctx, bucket, poolIdx)
if err != nil {
stopFn(err)
logger.LogIf(ctx, err)
return
}
stopFn(nil)
z.bucketRebalanceDone(bucket, poolIdx)
}
return err
}
func (z *erasureServerPools) checkIfRebalanceDone(poolIdx int) bool {
z.rebalMu.Lock()
defer z.rebalMu.Unlock()
// check if enough objects have been rebalanced
r := z.rebalMeta
poolStats := r.PoolStats[poolIdx]
if poolStats.Info.Status == rebalCompleted {
return true
}
pfi := float64(poolStats.InitFreeSpace+poolStats.Bytes) / float64(poolStats.InitCapacity)
// Mark pool rebalance as done if within 5% from PercentFreeGoal.
if diff := math.Abs(pfi - r.PercentFreeGoal); diff <= 0.05 {
r.PoolStats[poolIdx].Info.Status = rebalCompleted
r.PoolStats[poolIdx].Info.EndTime = time.Now()
return true
}
return false
}
// rebalanceBucket rebalances objects under bucket in poolIdx pool
func (z *erasureServerPools) rebalanceBucket(ctx context.Context, bucket string, poolIdx int) error {
ctx = logger.SetReqInfo(ctx, &logger.ReqInfo{})
vc, _ := globalBucketVersioningSys.Get(bucket)
// Check if the current bucket has a configured lifecycle policy
lc, _ := globalLifecycleSys.Get(bucket)
// Check if bucket is object locked.
lr, _ := globalBucketObjectLockSys.Get(bucket)
pool := z.serverPools[poolIdx]
const envRebalanceWorkers = "_MINIO_REBALANCE_WORKERS"
wStr := env.Get(envRebalanceWorkers, strconv.Itoa(len(pool.sets)))
workerSize, err := strconv.Atoi(wStr)
if err != nil {
logger.LogIf(ctx, fmt.Errorf("invalid %s value: %s err: %v, defaulting to %d", envRebalanceWorkers, wStr, err, len(pool.sets)))
workerSize = len(pool.sets)
}
workers := make(chan struct{}, workerSize)
var wg sync.WaitGroup
for _, set := range pool.sets {
set := set
disks := set.getOnlineDisks()
if len(disks) == 0 {
logger.LogIf(ctx, fmt.Errorf("no online disks found for set with endpoints %s",
set.getEndpoints()))
continue
}
filterLifecycle := func(bucket, object string, fi FileInfo) bool {
if lc == nil {
return false
}
versioned := vc != nil && vc.Versioned(object)
objInfo := fi.ToObjectInfo(bucket, object, versioned)
evt := evalActionFromLifecycle(ctx, *lc, lr, objInfo)
if evt.Action.Delete() {
globalExpiryState.enqueueByDays(objInfo, evt, lcEventSrc_Rebal)
return true
}
return false
}
rebalanceEntry := func(entry metaCacheEntry) {
defer func() {
<-workers
wg.Done()
}()
if entry.isDir() {
return
}
// rebalance on poolIdx has reached its goal
if z.checkIfRebalanceDone(poolIdx) {
return
}
fivs, err := entry.fileInfoVersions(bucket)
if err != nil {
return
}
// We need a reversed order for rebalance,
// to create the appropriate stack.
versionsSorter(fivs.Versions).reverse()
var rebalanced int
for _, version := range fivs.Versions {
// Skip transitioned objects for now. TBD
if version.IsRemote() {
continue
}
// Apply lifecycle rules on the objects that are expired.
if filterLifecycle(bucket, version.Name, version) {
logger.LogIf(ctx, fmt.Errorf("found %s/%s (%s) expired object based on ILM rules, skipping and scheduled for deletion", bucket, version.Name, version.VersionID))
continue
}
// We will skip rebalancing delete markers
// with single version, its as good as there
// is no data associated with the object.
if version.Deleted && len(fivs.Versions) == 1 {
logger.LogIf(ctx, fmt.Errorf("found %s/%s delete marked object with no other versions, skipping since there is no data to be rebalanced", bucket, version.Name))
continue
}
if version.Deleted {
_, err := z.DeleteObject(ctx,
bucket,
version.Name,
ObjectOptions{
Versioned: vc.PrefixEnabled(version.Name),
VersionID: version.VersionID,
MTime: version.ModTime,
DeleteReplication: version.ReplicationState,
DeleteMarker: true, // make sure we create a delete marker
SkipRebalancing: true, // make sure we skip the decommissioned pool
})
var failure bool
if err != nil && !isErrObjectNotFound(err) && !isErrVersionNotFound(err) {
logger.LogIf(ctx, err)
failure = true
}
if !failure {
z.updatePoolStats(poolIdx, bucket, version)
rebalanced++
}
continue
}
var failure bool
for try := 0; try < 3; try++ {
// GetObjectReader.Close is called by rebalanceObject
gr, err := set.GetObjectNInfo(ctx,
bucket,
encodeDirObject(version.Name),
nil,
http.Header{},
ObjectOptions{
VersionID: version.VersionID,
NoDecryption: true,
NoLock: true,
})
if isErrObjectNotFound(err) || isErrVersionNotFound(err) {
// object deleted by the application, nothing to do here we move on.
return
}
if err != nil {
failure = true
logger.LogIf(ctx, err)
continue
}
stopFn := globalRebalanceMetrics.log(rebalanceMetricRebalanceObject, poolIdx, bucket, version.Name)
if err = z.rebalanceObject(ctx, bucket, gr); err != nil {
stopFn(err)
failure = true
logger.LogIf(ctx, err)
continue
}
stopFn(nil)
failure = false
break
}
if failure {
break // break out on first error
}
z.updatePoolStats(poolIdx, bucket, version)
rebalanced++
}
// if all versions were rebalanced, we can delete the object versions.
if rebalanced == len(fivs.Versions) {
stopFn := globalRebalanceMetrics.log(rebalanceMetricRebalanceRemoveObject, poolIdx, bucket, entry.name)
_, err := set.DeleteObject(ctx,
bucket,
encodeDirObject(entry.name),
ObjectOptions{
DeletePrefix: true, // use prefix delete to delete all versions at once.
},
)
stopFn(err)
auditLogRebalance(ctx, "Rebalance:DeleteObject", bucket, entry.name, "", err)
if err != nil {
logger.LogIf(ctx, err)
}
}
}
wg.Add(1)
go func() {
defer wg.Done()
// How to resolve partial results.
resolver := metadataResolutionParams{
dirQuorum: len(disks) / 2, // make sure to capture all quorum ratios
objQuorum: len(disks) / 2, // make sure to capture all quorum ratios
bucket: bucket,
}
err := listPathRaw(ctx, listPathRawOptions{
disks: disks,
bucket: bucket,
recursive: true,
forwardTo: "",
minDisks: len(disks) / 2, // to capture all quorum ratios
reportNotFound: false,
agreed: func(entry metaCacheEntry) {
workers <- struct{}{}
wg.Add(1)
go rebalanceEntry(entry)
},
partial: func(entries metaCacheEntries, _ []error) {
entry, ok := entries.resolve(&resolver)
if ok {
workers <- struct{}{}
wg.Add(1)
go rebalanceEntry(*entry)
}
},
finished: nil,
})
logger.LogIf(ctx, err)
}()
}
wg.Wait()
return nil
}
type rebalSaveOpts uint8
const (
rebalSaveStats rebalSaveOpts = iota
rebalSaveStoppedAt
)
func (z *erasureServerPools) saveRebalanceStats(ctx context.Context, poolIdx int, opts rebalSaveOpts) error {
lock := z.serverPools[0].NewNSLock(minioMetaBucket, rebalMetaName)
lkCtx, err := lock.GetLock(ctx, globalOperationTimeout)
if err != nil {
logger.LogIf(ctx, fmt.Errorf("failed to acquire write lock on %s/%s: %w", minioMetaBucket, rebalMetaName, err))
return err
}
defer lock.Unlock(lkCtx)
ctx = lkCtx.Context()
noLockOpts := ObjectOptions{NoLock: true}
r := &rebalanceMeta{}
if err := r.loadWithOpts(ctx, z.serverPools[0], noLockOpts); err != nil {
return err
}
z.rebalMu.Lock()
defer z.rebalMu.Unlock()
switch opts {
case rebalSaveStoppedAt:
r.StoppedAt = time.Now()
case rebalSaveStats:
r.PoolStats[poolIdx] = z.rebalMeta.PoolStats[poolIdx]
}
z.rebalMeta = r
err = z.rebalMeta.saveWithOpts(ctx, z.serverPools[0], noLockOpts)
return err
}
func auditLogRebalance(ctx context.Context, apiName, bucket, object, versionID string, err error) {
errStr := ""
if err != nil {
errStr = err.Error()
}
auditLogInternal(ctx, AuditLogOptions{
Event: "rebalance",
APIName: apiName,
Bucket: bucket,
Object: object,
VersionID: versionID,
Error: errStr,
})
}
func (z *erasureServerPools) rebalanceObject(ctx context.Context, bucket string, gr *GetObjectReader) (err error) {
oi := gr.ObjInfo
defer func() {
gr.Close()
auditLogRebalance(ctx, "RebalanceCopyData", oi.Bucket, oi.Name, oi.VersionID, err)
}()
actualSize, err := oi.GetActualSize()
if err != nil {
return err
}
if oi.isMultipart() {
res, err := z.NewMultipartUpload(ctx, bucket, oi.Name, ObjectOptions{
VersionID: oi.VersionID,
MTime: oi.ModTime,
UserDefined: oi.UserDefined,
})
if err != nil {
return fmt.Errorf("rebalanceObject: NewMultipartUpload() %w", err)
}
defer z.AbortMultipartUpload(ctx, bucket, oi.Name, res.UploadID, ObjectOptions{})
parts := make([]CompletePart, len(oi.Parts))
for i, part := range oi.Parts {
hr, err := hash.NewReader(io.LimitReader(gr, part.Size), part.Size, "", "", part.ActualSize)
if err != nil {
return fmt.Errorf("rebalanceObject: hash.NewReader() %w", err)
}
pi, err := z.PutObjectPart(ctx, bucket, oi.Name, res.UploadID,
part.Number,
NewPutObjReader(hr),
ObjectOptions{
PreserveETag: part.ETag, // Preserve original ETag to ensure same metadata.
IndexCB: func() []byte {
return part.Index // Preserve part Index to ensure decompression works.
},
})
if err != nil {
return fmt.Errorf("rebalanceObject: PutObjectPart() %w", err)
}
parts[i] = CompletePart{
ETag: pi.ETag,
PartNumber: pi.PartNumber,
}
}
_, err = z.CompleteMultipartUpload(ctx, bucket, oi.Name, res.UploadID, parts, ObjectOptions{
MTime: oi.ModTime,
})
if err != nil {
err = fmt.Errorf("rebalanceObject: CompleteMultipartUpload() %w", err)
}
return err
}
hr, err := hash.NewReader(gr, oi.Size, "", "", actualSize)
if err != nil {
return fmt.Errorf("rebalanceObject: hash.NewReader() %w", err)
}
_, err = z.PutObject(ctx,
bucket,
oi.Name,
NewPutObjReader(hr),
ObjectOptions{
VersionID: oi.VersionID,
MTime: oi.ModTime,
UserDefined: oi.UserDefined,
PreserveETag: oi.ETag, // Preserve original ETag to ensure same metadata.
IndexCB: func() []byte {
return oi.Parts[0].Index // Preserve part Index to ensure decompression works.
},
})
if err != nil {
err = fmt.Errorf("rebalanceObject: PutObject() %w", err)
}
return err
}
func (z *erasureServerPools) StartRebalance() {
z.rebalMu.Lock()
if z.rebalMeta == nil || !z.rebalMeta.StoppedAt.IsZero() { // rebalance not running, nothing to do
z.rebalMu.Unlock()
return
}
ctx, cancel := context.WithCancel(GlobalContext)
z.rebalMeta.cancel = cancel // to be used when rebalance-stop is called
z.rebalMu.Unlock()
z.rebalMu.RLock()
participants := make([]bool, len(z.rebalMeta.PoolStats))
for i, ps := range z.rebalMeta.PoolStats {
// skip pools which have completed rebalancing
if ps.Info.Status != rebalStarted {
continue
}
participants[i] = ps.Participating
}
z.rebalMu.RUnlock()
for poolIdx, doRebalance := range participants {
if !doRebalance {
continue
}
// nothing to do if this node is not pool's first node (i.e pool's rebalance 'leader').
if !globalEndpoints[poolIdx].Endpoints[0].IsLocal {
continue
}
go func(idx int) {
stopfn := globalRebalanceMetrics.log(rebalanceMetricRebalanceBuckets, idx)
err := z.rebalanceBuckets(ctx, idx)
stopfn(err)
}(poolIdx)
}
}
// StopRebalance signals the rebalance goroutine running on this node (if any)
// to stop, using the context.CancelFunc(s) saved at the time ofStartRebalance.
func (z *erasureServerPools) StopRebalance() error {
z.rebalMu.Lock()
defer z.rebalMu.Unlock()
r := z.rebalMeta
if r == nil { // rebalance not running in this node, nothing to do
return nil
}
if cancel := r.cancel; cancel != nil {
// cancel != nil only on pool leaders
r.cancel = nil
cancel()
}
return nil
}
// for rebalance trace support
type rebalanceMetrics struct{}
var globalRebalanceMetrics rebalanceMetrics
//go:generate stringer -type=rebalanceMetric -trimprefix=rebalanceMetric $GOFILE
type rebalanceMetric uint8
const (
rebalanceMetricRebalanceBuckets rebalanceMetric = iota
rebalanceMetricRebalanceBucket
rebalanceMetricRebalanceObject
rebalanceMetricRebalanceRemoveObject
rebalanceMetricSaveMetadata
)
func rebalanceTrace(r rebalanceMetric, poolIdx int, startTime time.Time, duration time.Duration, err error, path string) madmin.TraceInfo {
var errStr string
if err != nil {
errStr = err.Error()
}
return madmin.TraceInfo{
TraceType: madmin.TraceRebalance,
Time: startTime,
NodeName: globalLocalNodeName,
FuncName: fmt.Sprintf("rebalance.%s (pool-id=%d)", r.String(), poolIdx),
Duration: duration,
Path: path,
Error: errStr,
}
}
func (p *rebalanceMetrics) log(r rebalanceMetric, poolIdx int, paths ...string) func(err error) {
startTime := time.Now()
return func(err error) {
duration := time.Since(startTime)
if globalTrace.NumSubscribers(madmin.TraceRebalance) > 0 {
globalTrace.Publish(rebalanceTrace(r, poolIdx, startTime, duration, err, strings.Join(paths, " ")))
}
}
}